Scraper apparatus and method
A scraper apparatus including a cart and a scraping arrangement located at a front of the cart. The scraping arrangement includes blades that are driven along a joint or crack by the cart to remove excess filling material deposited in the joint or crack of a working surface.
This application claims the benefit of U.S. Provisional Application No. 60/641,659 filed on Jan. 4, 2005; which application is incorporated herein by reference.
TECHNICAL FIELDThe principles disclosed relate to the operation and use of a scraper apparatus. More particularly, this disclosure concerns a scraper apparatus arranged to scrape crack-filling material.
BACKGROUNDWorking surfaces commonly experience cracking due to any number of causes, such as wear, damage, weather conditions, or material composition of the work surface. To avoid further cracking and/or as a temporary fix in lieu of complete replacement, the cracks are repaired. Repairing the cracks often includes filling the cracks in the working surface with a filling material.
Similarly, working surfaces made of concrete material, for example, are often formed with control joints, also known as a construction joints or transition joints. These joints are provided to accommodate the expansion and contraction of the concrete material. It is often desirable to fill the control joints with a filling material that accommodates the expansion and contraction of the concrete material, while providing a uniformly flush working surface.
In concrete surface applications of either repairing a crack or filling a control joint, the filling material is typically a flowable or extrudable material that fills and hardens within the crack volume. When applying the filling material, a volume of filling material greater than the crack volume is often deposited within the crack to ensure that the entire crack is filled. Other types of filling materials are designed to expand beyond the volume defined by the crack to ensure that the entire crack is filled. In either case, workers are required to remove the excess filling material so that the top surface of the filling material is flush with the concrete working surface. Typically, this procedure requires the worker to use a hand scraper to scrape the excess filling material. Scraping excess hardened material by hand can be very laborious, as the worker is required to be on his hands and knees while manually scraping the hardened filling material. This type of work is tiring and sometimes causes back, knee, or other injury to the worker.
In general, improvement has been sought with respect to such devices and methods of crack repair.
SUMMARYOne aspect of the present disclosure relates to an automated scraper apparatus having a power-driven cart with scrapers configured to scrape concrete filling material. Another aspect of the present invention relates to a method of scraping concrete that preferably uses an automated scraper apparatus. Still another aspect of the present invention relates to various attachments and devices used in methods of repairing cracks or filling joints.
A variety of examples of desirable product features or methods are set forth in part in the description that follows, and in part will be apparent from the description, or may be learned by practicing various aspects of the disclosure. The aspects of the disclosure may relate to individual features as well as combinations of features. It is to be understood that both the foregoing general description and the following detailed description are explanatory only, and are not restrictive of the claimed invention.
BRIEF DESCRIPTION OF THE DRAWINGS
With reference now to the various figures in which identical elements are numbered identically throughout, a description of various exemplary aspects of the present invention will now be provided.
The cart 12 has a front region 24 and a rear region 20. For purposes of clarification, the front region 24 of the scraper apparatus 10 refers to the portion of the apparatus farthest from the operator during operation, and the rear region 20 of the scraper apparatus 10 refers to the portion of the apparatus closest to the operator during operation. A scraping arrangement 16 is mounted at the front region 24 of the cart 12. In use, the cart 12 of the scraper apparatus 10 is driven along a filled concrete control joint or crack 52 of a concrete working surface 50, for example. The scraping arrangement 16 scrapes excess portions 56 (
Although reference is made throughout the present disclosure to a concrete working surface and concrete filling material, it can be appreciated that the disclosed scraper apparatus 10 can be used on other types of working surfaces and with other types of filling materials. Also, although reference is made throughout the remaining disclosure to a control joint in a concrete working surface (such as shown in
The cart 12 shown in
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By orienting the blades at the non-parallel relationship relative to one another, and in the angled, facing directions C, D relative to the centerline CL of the cart 12, the scraping arrangement 16 is less likely to ride over a ridge, for example, formed in the excess portions 56 of the filling material 54. That is, what one of the blades 36, 38 may miss or ride over, the other will catch so that all or a substantial majority of the excess portions 56 of filling material 54 is effectively sheared and scraped by at least one of the blades 36, 38. By this arrangement, all or a substantial majority of the scraped material surface 58 is generally flush with the working surface 50.
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The blades 36, 38 are coupled transversely to a longitudinal dimension of the extension members 66, 68. The extension members 66, 68 are non-parallel to one another. In particular, the extension members 66, 68 are oriented at an angle E (
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By mounting the blades 36, 38 at the first ends 74 of the extension members 66, 68, the blades 36, 38 are positioned a distance D1 (
Preferably, the position at which the extension members 66, 68 mount relative to the mounting sleeves 80 is adjustable. That is, an operator can adjust the position of the extension members 66, 68 so that the distance D1 from the cart 12 at which the blades 36, 38 contact the working surface 50 is also adjustable. Adjusting or changing the location of the blades 36, 38 in relation to the cart 12 also changes the angle A1, A2 of the blades 36, 38 relative to the working surface.
For example, if the operator wishes to have a lesser angle A1, A2 of contact between the blades and the working surface, the operator can position the extension members 66, 68 within the mounting sleeves 80 (
In contrast, the operator may wish to locate the blades 36, 38 a distance D1 closer toward the cart 12 to orient the blades at an angle A1, A2 that is greater so that the shearing force is reduced. Increasing the angle A1, A2 of contact and reducing the shearing force may be desirable for some applications.
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In an alternative embodiment, a tray or platform 60 (shown schematically represented by dashed lines in
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The heating arrangement 62 includes a heater 64 (such as a propane tank, for example) that directs heat at the filling material 54 as the power-driven cart 12 moves along the control joint 52. Once the filling material 54 is sufficiently heated, the heating arrangement 62 is removed and replaced with the scraping arrangement 16. After the filling material has cured, the scraping arrangement 16 is driven along the control joint 52 by the power-driven cart 12 to remove the excess portion 56 of the filling material 54.
In general, the scraper apparatus 10 is used for repairing cracks or other structural defects formed a working surface, or filling control joints formed in a working surface. Often, the control joint or crack 52 is first cleaned to remove dirt and loose or fragmented concrete pieces. The control joint or crack 52 is then filled with filling material 54. Examples of filling material that can be used for concrete working surfaces include, for example, polysolphites, polyurethane, polyurea, epoxy, and rubber compounds. Other types of filling material for use on concrete surfaces or other types of working surfaces may also be used in accord with the principle disclosed.
In many applications, the amount or volume of the filling material 54 deposited within the control joint 52 is greater than the volume defined by the joint. Depositing a greater volume of filling material 54 ensures that the joint 52 is completely filled. Other filling materials may expand beyond the volume defined by the joint to ensure the joint is completely filled. After depositing the volume of filling material 54, the material is typically permitted to harden or cure. The heating arrangement 62 can be used to expedite the curing process or to activate a curing agent of the filling material, as previously described.
Once the filling material has hardened, the scraper apparatus 10 is used to remove the excess filling material 56 so that the top surface 58 (
Because the cart is automated, that is, power driven, scraping operations are made significantly less laborious than conventional methods. The operator can simply walk behind the cart 12 of the scraper apparatus while controlling the forward drive and direction the scraper apparatus 10. The scraper apparatus provides the shearing and scraping forces needed to remove excess, hardened filling material without the tiring efforts of conventional methods that can cause back, knee, or other injury.
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In particular, the cart 112 shown in
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The frame assembly 144 of the scraping arrangement includes first and second side panels 145, 147, and a tray or platform 160 that extends between the first and second side panels 145, 147. Similar to the previous embodiment, the platform 160 can be used for placement of added weight, such as a sandbag, to provide a greater downward force upon the scraping arrangement 116.
A cross-support 149 extends between the first and second side panels 145, 147. An L-shaped mounting bracket 151 is affixed to the cross-support 149. The mounting bracket 151 is constructed to detachably mount to the mounting structure 142 of the cart 112. In particular, the mounting bracket 151 hooks onto a top edge 153 (
In the illustrated embodiment, the frame assembly 144 of the scraping arrangement 116 further includes vertical support members 157 that extend downward from the cross-support 149. The mounting structure 142 attached to the front side 141 of the cart 112 (
To detach or remove the scraping arrangement 116 from the cart 112, the rod 161 is removed from the sleeve 163 and the scraping arrangement 116 is lifted from the mounting structure 142. Windows 187 are formed in each of the first and second side panels 145, 147 to provide access to the holes 159 and the rod 161.
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Similar to the previous embodiment, the position at which the extension members 166, 168 mount relative to the mounting sleeves 180 is adjustable. That is, an operator can adjust the position of the extension members 166, 168 to correspondingly adjust the location of the blades 136, 138 in relation to the cart 112 (i.e. the distance D1 of
As previously discussed with respect to the first embodiment, adjusting or changing the location of the blades 136, 138 in relation to the cart 112 also changes the angle A1, A2 of the blades 136, 138 relative to the working surface. Also similar to the previous embodiment, the wheels 134 of the scraper apparatus 110 are located a distance D2 (
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The heating arrangement 162 of this embodiment includes a blower device 165 (e.g., a blow torch) and a fuel source 167. In one embodiment, a control valve 185 can be provided to control the flow of fuel between the fuel source 167 and the blower device 165, and thereby control operation of the heating arrangement 162. The control valve 185 is preferably located where easily accessible, such as on the handle portion 126 of the cart 112, for example.
One type of fuel source 167 that can be used is a propane tank 169, although other fuel sources are contemplated. Two propane tanks 169 are provided in the shown embodiment. The propane tanks 169 are mounted to the frame assembly 144 of the scraping arrangement 116 by brackets 171. The brackets 171 have a basket type configuration to hold the propane tanks. The basket type configuration permits an operator to easily replace empty propane tanks with filled tanks.
The brackets 171 attached to the mounting connections 173 (
The blower device 165 of the heating arrangement 162 secures to the frame assembly 144 of the scraping arrangement 116. In particular, a heater mount 175 (
Preferably, the heater mount 175 is constructed so that the position and orientation of the blower device 165 relative to the control joint 52 is adjustable. In the illustrated embodiment, for example, the heater mount 175 includes a sleeve 177 pivotally connected to a bracket 179. The bracket 179 is secured to a front plate 137 (
In addition, the angle or orientation of the blower device 165 relative to the concrete working surface 50 is also adjustable. In particular, the blower device 165 can be pivoted about a pin connection 183 (
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When the scraper apparatus 10 is being used to scrape the filling material 54, the adjustable wheel 117 is either detached from the frame assembly 144, or positioned in a raised position so that the wheel 117 does not contact the concrete working surface 50. By detaching or raising the wheel 117, the weight of the cart 112 is carried by the blades 136, 138 to provide the shearing force, as previously discussed. In the illustrated embodiment, a securing knob 119 is used to secure the wheel 117 at one of a number of positions, including the lower position and the raised position. In alternative embodiments, the wheel 117 can be lower and raised by a hinging, pivoting, or folding bracket construction, for example.
The adjustable wheel 117 is also convenient for lifting the blades 136, 138 from the concrete surface 50 when the blades require maintenance or repair. As previously described, the blade heads 186, 188 of each of the blades 136, 138 are secured to the respective shafts 170 by fasteners 182. The adjustable wheel 117 can be positioned to lift the blades 136, 138 so that the blade heads 186, 188 can be removed and interchanged as needed. As shown in
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In general, the scraper apparatus 110 is used for scraping repaired cracks or other structural defects formed in a working surface, or for scraping filled control joints formed in a working surface. However, prior to filling and scraping operations, often the crack or joint 52 is first “cleaned” to remove dirt and loose/fragmented concrete pieces, for example, and/or to provide a more uniform crack volume. The cracks or joints are typically “cleaned” with a saw blade.
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The location of the knob 274 within the slot 276 correspondingly positions the front wheels 230 of the base 228 relative to the working surface 50 via the linkage 272. In turn, the position of the front wheels 230 corresponds to the depth of engagement of the saw blade. In
In conventional use, such power saw arrangements are physically pushed by an operator during cutting operation. Pushing a saw arrangement can be very laborious, as traditionally the saw blades are up-cut blades that generate a reaction force in a direction opposite the direction of travel of the saw arrangement. The scraper apparatus 110 of the present disclosure, however, eliminates the labor involved in physically pushing the power saw arrangement 220. That is, the present invention also relates to a saw mounting bracket 226 (
As shown in
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A cross member 256 of the illustrated saw mounting bracket 226 is interconnected to both the first main portions 262 of the first and second bracket members 238. The cross member 256 provides structural support to the overall saw mounting bracket 226. To mount the power saw arrangement 220 to the power cart 112, the second offset portions 264 of the saw mounting bracket 226 are coupled to the base 228 by fasteners 242, for example. The saw mounting bracket 226 is then coupled to the mounting structure 142 of the cart 112. In particular, the sleeve 163 (
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The power saw arrangement 220 further includes a line guide arrangement 284. The line guide arrangement 284 includes a telescoping arm 286 that extends from and retracts into a sleeve 288. A finger 290 is located at a free end of the arm 286. In use, the arm 286 can be extended from the sleeve 288 a distance so that the finger 290 aligns with the blade of the saw. In use, the operator maintains the alignment of the finger 290 with the crack or joint 52 in the working surface 50; and correspondingly, maintains alignment of the saw blade with the crack or joint.
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Essentially, the tie-down arrangement functions as a safety device to limit the pivotal movement of the power saw arrangement 220. That is, the power saw arrangement 220 is rigidly attached to the saw mounting bracket 226, yet can pivot about the cart mounting connection 260. In particular, the rod 161 (
The tie-down arrangement 246 can also be used to lift the wheels 230 of the power saw arrangement from the working surface to aid in maneuvering or turning the apparatus 110. In particular, the strap 248 can be tightened so only the rear wheels (not shown) of the power saw arrangement 220 located adjacent to the saw mounting bracket 226 contact the working surface. Lifting the front wheels 230 from the working surface permits the operator to more easily maneuver the apparatus 110. For example, when the front wheel 230 bear the weight of the power saw arrangement 220, the entire apparatus (112 and 220) has a wheel base length (i.e., from saw arrangement wheels 230 to cart wheels 134) that can be difficult to turn. Lifting the front wheels 230 via the tie-down arrangement 246 provides a shorter wheel base so that the entire apparatus is more easily maneuvered. Preferably, the strap 248 of the tie-down arrangement 246 is retractable so that the strap 248 can be stored when the saw arrangement 220 is not mounted to the cart 112.
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As previously described, the devices and methods of the present disclosure can be used in removing excess filling material from a joint or crack formed in a working surface. It is contemplated that the principles relating to the disclosed devices and methods can also be used in other applications such as removal of carpet, tile, linoleum, wooden flooring, or ice from outdoor surfaces.
The above specification, examples and data provide a complete description of the invention. Since many embodiments of the invention can be made without departing from the spirit and scope of the invention, the invention resides in the claims hereinafter appended.
Claims
1. An apparatus for scraping hardened filling material deposited in a joint or crack of a concrete surface, the apparatus comprising:
- a) a power-driven cart for advancing the apparatus along the concrete surface in a forward direction; and
- b) a scraping arrangement mounted at a front region of the power-driven cart, the scraping arrangement being configured to scrape excess portions of the hardened filling material to provide a filling material surface that is generally flush with the concrete surface, the scraping arrangement including: i) a first extension member having a first rigid blade, and a second extension member having a second rigid blade, each of the first and second extension members extending forward from the power-driving cart such that the first and second blades contact the concrete surface; ii) wherein the first blade is positioned in front of the second blade.
2. The apparatus of claim 1, wherein the first and second blades are oriented at a non-perpendicular angle relative to the concrete surface.
3. The apparatus of claim 2, wherein the first and second blades are oriented at an angle less than about 45 degrees relative to the concrete surface.
4. The apparatus of claim 1, wherein the first and second blades are oriented in a non-parallel relationship relative to one another.
5. The apparatus of claim 4, wherein the first blade is oriented in a first direction relative to a centerline of the power-driven cart, and the second blade is oriented in a second opposite direction relative to the centerline of the power-driven cart.
6. The apparatus of claim 4, wherein the first and second blades are oriented at an angle of between approximately 15 degrees and 45 degrees relative to one another.
7. The apparatus of claim 1, wherein each of the first and second blades is oriented transversely to a longitudinal dimension of the extension members, the extension members being oriented in a non-parallel relationship relative to one another.
8. The apparatus of claim 7, wherein the extension members are oriented at an angle of between approximately 15 degrees and 45 degrees relative to one another.
9. The apparatus of claim 1, further including wheels attached to the power-driven cart.
10. The apparatus of claim 9, wherein the wheels are located rearward of a center fulcrum of the power-driven cart so that a portion of the cart's weight provides a downward force on the blades of the scraping arrangement.
11. The apparatus of claim 1, wherein the blade is attached to an extension member that extends forward a distance from the power-driven cart, the distance being between 2.0 and 6.0 feet.
12. The apparatus of claim 1, wherein the apparatus advances in the forward direction away from a user during operation of the apparatus.
13. The apparatus of claim 1, further including a handle portion extending from a rear region of the power-driven cart, the handle portion including controls to control movement of the cart.
14. The apparatus of claim 13, further including a drive lever configured to engage and disengage a drive mechanism of the power-driven cart.
15. The apparatus of claim 1, wherein at least one of the extension members is removable, the extension member being sized and configured for use in manual scraping operations.
16. The apparatus of claim 1, wherein each of the blades has a length, the length being between 6.0 inches and 10.0 inches.
17-20. (canceled)
21. An apparatus for scraping hardened filling material deposited in a joint or crack of a concrete surface, the apparatus comprising:
- a) a power-driven cart for advancing the apparatus along the concrete surface in a forward direction; and
- b) a scraping arrangement mounted at a front region of the power-driven cart, the scraping arrangement being configured to scrape excess portions of the hardened filling material to provide a filling material surface that is generally flush with the concrete surface, the scraping arrangement including: i) a first extension member having a first blade, and a second extension member having a second blade, each of the first and second extension members extending forward from the power-driving cart; ii) wherein the first and second blades are oriented at an angle less than about 45 degrees relative to the concrete surface, the first blade being positioned in front of the second blade.
22. An apparatus for scraping hardened filling material deposited in a joint or crack of a concrete surface, the apparatus comprising:
- a) a power-driven cart for advancing the apparatus along the concrete surface in a forward direction; and
- b) a scraping arrangement mounted at a front region of the power-driven cart, the scraping arrangement being configured to scrape excess portions of the hardened filling material to provide a filling material surface that is generally flush with the concrete surface, the scraping arrangement including: i) a first extension member having a first blade, and a second extension member having a second blade, each of the first and second extension members extending forward from the power-driving cart; ii) wherein the first and second blades are oriented in a non-parallel relationship relative to one another, the first blade being positioned in front of the second blade.
23. An apparatus for scraping hardened filling material deposited in a joint or crack of a concrete surface, the apparatus comprising:
- a) a power-driven cart for advancing the apparatus along the concrete surface in a forward direction away from a user during operation of the apparatus; and
- b) a scraping arrangement mounted at a front region of the power-driven cart, the scraping arrangement being configured to scrape excess portions of the hardened filling material to provide a filling material surface that is generally flush with the concrete surface, the scraping arrangement including: i) a first extension member having a first blade, and a second extension member having a second blade, each of the first and second extension members extending forward from the power-driving cart; ii) wherein the first blade is positioned in front of the second blade.
Type: Application
Filed: May 25, 2005
Publication Date: Jul 6, 2006
Patent Grant number: 7112005
Inventor: Joseph Due (Mauston, WI)
Application Number: 11/136,828
International Classification: E01C 19/22 (20060101);